Information about chemical forms of copper (Cu) is important for the evaluation of its status in soil and also understanding of soil fertility, plant nutrition and soil chemistry. To obtain such information, in this research available Cu was determined in 21 calcareous surface soil samples (0-30 cm) by six methods including DTPA, AB-DTPA, AC-EDTA, hydroxylamine, reference ammonium oxalate and rapid ammonium oxalate. Cu fractions were also determined by the modified sequential extraction procedures introduced by Singh et al. According to the results, rapid ammonium oxalate and DTPA-TEA methods extracted the maximum (25.69 mg kg-1) and minimum (1.57 mg kg-1) amounts of Cu, respectively. Also, Cu-residual and Cu-CFeox forms the greatest amount of Cu in studied soils respectively. AC-EDTA extraction method, in addition to Cu-Residual, extracted other fractions of copper such as Cu-Exchangeable, and Cu-CFeoxide. Hydroxylamine method extracted Cu mostly from the manganese oxides source compared to other methods. Regression analysis indicates that Cu-CFeox forms the maximum copper extracted by extractants AB-DTPA, AC-EDTA and DTPA in soils was studied. According to the statistical relationships presumably Cu-CFeox, does seem a potential source of available Cu in studied soils. Among chemical properties of soil, CCE content of the soils appear the most influential properties that predict available Cu in the studied soils.

Alavi H., Barani Motlagh M. and Dordipor A. 2012. Determination of chemical forms of copper and its relationship with the characteristics of the soil and plant responses in some soils of Golestan province. Journal of Soil and Water Conservation Research, 19: 42-63. (In Persian)

Hemati matin N. and Jalali M. 2006. Study the relationship between soil properties and components, copper, iron and manganese in paddy soils Lenjanat region. The first National Congress on science and new technologies Zanjan University. 19 to 21 September 1390. (In Persian)